內科CHIANG, SHU-HUISHU-HUICHIANGHSUEH, CHIA-HSIANGCHIA-HSIANGHSUEHLIANG, YAO-JENYAO-JENLIANGCHEN, YI-JUNGYI-JUNGCHENLAI, LING-PINGLING-PINGLAI2010-07-082018-07-112010-07-082018-07-112009http://ntur.lib.ntu.edu.tw//handle/246246/188605Metformin has been reported to reduce cardiovascular complications in diabetic patients. The purpose of the present study was to investigate the anti-inflammatory effects of metformin on endothelial cells and the related molecular mechanisms. Methods: Human umbilical vein endothelial cells (HUVEC) were used for the experiments. The effects of metformin on TNF-alpha-induced IL-6 production were investigated. Modulation of AMPK and related signal transduction pathways were also performed. Results: TNF - alpha increased IL-6 secretion by HUVEC in a dose-dependent manner but inhibitors of NF-kappa B abolished the TNF-alpha- induced IL-6 production. Pre-treatment with metformin (100- 1000 mu mol/L) also inhibited TNF- alpha-induced IL-6 production, phosphorylation of I kappa B kinase (IKK) alpha/ beta and I kappa B-alpha degradation. Metformin increased phosphorylation of AMP-activated kinase (AMPK) but wortmannin, a PI3K inhibitor, negated its effects on AMPK phosphorylation and TNF-alpha- induced I kappa B-alpha degradation. AICAR, a direct AMPK activator, had inhibitory effects on TNF-alpha-induced IL-6 production, similar to that of metformin. Transfection of siRNA against alpha 1- AMPK eradicated the inhibitory effects of metformin on TNF- alpha-induced IL-6, implying the essential role of AMPK. Conclusions: Metformin had anti-inflammatory effects on endothelial cells and inhibited TNF-alpha-induced IKK alpha/ beta phosphorylation, I kappa B-alpha degradation and IL-6 production in HUVEC. This effect was related to PI3K- dependent AMPK phosphorylation.en-USMetforminAMP-activated protein kinaseAtherosclerosisHUVECInterleukin-6[SDGs]SDG3journal article